Models and methods for studying cell polarity establishment and gradient sensing

Introduced by: Santiago Schnell

Wednesday, June 16 at 08:15am (PDT)
Wednesday, June 16 at 04:15pm (BST)
Thursday, June 17 12:15am (KST)

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Timothy Elston

Professor of Pharmacology
University of North Carolina, USA


Cells polarize their growth or movement in the direction of chemical gradients in many different physiological contexts. A key driver of polarity is the Rho GTPase Cdc42, which when activated becomes clustered or concentrated at polar sites. We present models to describe the polarity process and the mechanisms that allow yeast to reorient their polarity site toward chemical gradients. We also present a novel approach for performing spatial Gillespie simulations of the polarization process with improved accuracy. Finally, we present preliminary results that suggest the mechanisms that underlie polarity establishment in yeast may also play a role in the early events of phagocytosis.

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Virtual conference of the Society for Mathematical Biology, 2021.